| Spherical ordered mesoporous carbon nanoparticles with high porosity for lithium–sulfur batteries J Schuster, G He, B Mandlmeier, T Yim, KT Lee, T Bein, LF Nazar Angewandte Chemie International Edition 51 (15), 3591-3595, 2012 | 1300 | 2012 |
| Sulfur speciation in Li–S batteries determined by operando X-ray absorption spectroscopy M Cuisinier, PE Cabelguen, S Evers, G He, M Kolbeck, A Garsuch, T Bolin, ... The Journal of Physical Chemistry Letters 4 (19), 3227-3232, 2013 | 597 | 2013 |
| High “C” rate Li-S cathodes: sulfur imbibed bimodal porous carbons G He, X Ji, L Nazar Energy & Environmental Science 4 (8), 2878-2883, 2011 | 530 | 2011 |
| Tailoring porosity in carbon nanospheres for lithium–sulfur battery cathodes G He, S Evers, X Liang, M Cuisinier, A Garsuch, LF Nazar ACS nano 7 (12), 10920-10930, 2013 | 507 | 2013 |
| Crystallite size control of Prussian white analogues for nonaqueous potassium-ion batteries G He, LF Nazar ACS Energy Letters 2 (5), 1122-1127, 2017 | 337 | 2017 |
| Rechargeable Al–CO2 Batteries for Reversible Utilization of CO2 W Ma, X Liu, C Li, H Yin, W Xi, R Liu, G He, X Zhao, J Luo, Y Ding Advanced Materials 30 (28), 1801152, 2018 | 124 | 2018 |
| Hierarchical pore-in-pore and wire-in-wire catalysts for rechargeable Zn–and Li–air batteries with ultra-long cycle life and high cell efficiency L Li, C Liu, G He, D Fan, A Manthiram Energy & Environmental Science 8 (11), 3274-3282, 2015 | 120 | 2015 |
| A 3.4 V Layered VOPO4 Cathode for Na-Ion Batteries G He, WH Kan, A Manthiram Chemistry of Materials 28 (2), 682-688, 2016 | 116 | 2016 |
| VO 2/rGO nanorods as a potential anode for sodium-and lithium-ion batteries G He, L Li, A Manthiram Journal of Materials Chemistry A 3 (28), 14750-14758, 2015 | 114 | 2015 |
| Bimodal mesoporous carbon nanofibers with high porosity: freestanding and embedded in membranes for lithium–sulfur batteries G He, B Mandlmeier, J Schuster, LF Nazar, T Bein Chemistry of Materials 26 (13), 3879-3886, 2014 | 98 | 2014 |
| Flexible amalgam film enables stable lithium metal anodes with high capacities G He, Q Li, Y Shen, Y Ding Angewandte Chemie 131 (51), 18637-18641, 2019 | 85 | 2019 |
| Stable cycling of a scalable graphene-encapsulated nanocomposite for lithium–sulfur batteries G He, CJ Hart, X Liang, A Garsuch, LF Nazar ACS Applied Materials & Interfaces 6 (14), 10917-10923, 2014 | 85 | 2014 |
| β-NaVOPO4 Obtained by a Low-Temperature Synthesis Process: A New 3.3 V Cathode for Sodium-Ion Batteries G He, A Huq, WH Kan, A Manthiram Chemistry of Materials 28 (5), 1503-1512, 2016 | 82 | 2016 |
| Tailoring nanoporous structures of Ge anodes for stable potassium-ion batteries Q Yang, Z Wang, W Xi, G He Electrochemistry Communications 101, 68-72, 2019 | 78 | 2019 |
| Lithiated Prussian blue analogues as positive electrode active materials for stable non-aqueous lithium-ion batteries Z Zhang, M Avdeev, H Chen, W Yin, WH Kan, G He Nature Communications 13 (1), 7790, 2022 | 65 | 2022 |
| Nanostructured Li2MnSiO4/C Cathodes with Hierarchical Macro‐/Mesoporosity for Lithium‐Ion Batteries G He, A Manthiram Advanced Functional Materials 24 (33), 5277-5283, 2014 | 64 | 2014 |
| Dealloyed nanoporous materials for rechargeable lithium batteries X Wu, G He, Y Ding Electrochemical Energy Reviews 3 (3), 541-580, 2020 | 63 | 2020 |
| Structural evolution upon delithiation/lithiation in prelithiated foil anodes: a case study of AgLi alloys with high Li utilization and marginal volume variation X Wu, W Zhang, N Wu, SS Pang, Y Ding, G He Advanced Energy Materials 11 (7), 2003082, 2021 | 58 | 2021 |
| Crystal Chemistry of Electrochemically and Chemically Lithiated Layered αI-LiVOPO4 G He, CA Bridges, A Manthiram Chemistry of Materials 27 (19), 6699-6707, 2015 | 58 | 2015 |
| Hydrothermal Synthesis and Electrochemical Properties of Li2CoSiO4/C Nanospheres G He, G Popov, LF Nazar Chemistry of Materials 25 (7), 1024-1031, 2013 | 50 | 2013 |
Linda F. NazarTier 1 Canada Research Chair in Solid State Energy Materials, Waterloo Institute for NanotechnologyVerifisert e-postadresse på uwaterloo.ca